CN101127661A

CN101127661A - A wireless competition access control method based on congestion degree possibility P

Info

Publication number: CN101127661A
Application number: CNA2007100927116A
Authority: CN
Inventors: 刘宴兵; 赵金; 杨茜惠; 徐川; 唐红
Original assignee: Chongqing University of Post and Telecommunications
Current assignee: Chongqing University of Post and Telecommunications
Priority date: 2007-09-18
Filing date: 2007-09-18
Publication date: 2008-02-20
Anticipated expiration: 2027-09-18
Also published as: CN101127661B

Abstract

The utility model relates to a distributed contention control backoff method for wireless local network based on probability P, belonging to the wireless communication technology. The method is based on the basic idea of executing backoff on the basis of nodes; by executing carrier monitoring mechanism, the nodes estimate the network congestion status; the time slot utilization ration is calculated according to the time slot number when the channel is busy and the total time slot number passed in the backoff process, and the congestion degree probability P is thereby determined; a value of the contention window of the nodes is arranged according to the value of the probability P and the node random number; each time after the nodes is sent successfully, the probability P is used to judge whether the contention window is turned into the minimum value; therefore, unnecessary collision is avoided. When collision occurs in the channel, the value of the contention window is doubled until the maximum value is achieved; then the value of a backoff counter is determined according to the contention window, and the collision of the network data is thereby controlled. The utility model is based on the present IEEE802.11 standard protocol, and no other hardware requirement is needed; the utility model is in complete distribution mode; the throughput, the time delay and other functions of the utility model are all superior to the prior backoff methods.

Description

A kind of wireless competition access control method based on congestion degree possibility P

Technical field

The present invention relates to the wireless network communication technique field, especially a kind of competition access control method of WLAN (wireless local area network).

Background technology

Along with the development of broadband wireless technology and Internet, wireless lan (wlan) is widely applied under the underdeveloped state of public telecommunication network, in the environment that is not suitable for connecting up as campus, hospital, airport, large supermarket etc.But along with the increase day by day of wireless local network user, network load is more and more heavier, how to increase network utilization, and one that has become the WLAN (wireless local area network) development has key technical problem to be solved.

Under IEEE 802.11 DCF access mechanisms, the wireless channel that all nodes are shared in competition, collision increases along with user's increase, thereby causes network throughput decreased performance and time delay to increase, and has unjustness.Be head it off, in the WLAN (wireless local area network) access protocol, introduced back-off method.Existing back-off method mainly contains three kinds: first kind is that the binary exponential backoff method (Binary Exponential Backoff algorithm) that is adopted in IEEE 802.11 standard agreements is called for short BEB; Second kind of back-off method (Slow CS Decrease) that is based on " keeping out of the way slowly " mechanism is called for short SD_DCF; The third back-off method (Distributed Contention ControlMechanism) that is based on distributed contention control mechanism is called for short DCC.

Described binary exponential backoff method BEB has been applied in IEEE 802.11 agreements.This method is by competition window and keep out of the way two parameters of progression and solve collision problem.Keeping out of the way progression under the initial condition is 0, and contention window value is minimum value CW _MinAfter each transmission collision, keeping out of the way progression increases by 1, contention window value with double up to reaching maximum CW _MaxAfter successfully transmitting at every turn, to keep out of the way progression and become 0, competition window reverts to minimum value CW _MinWhen network congestion degree is low, this method demonstrates good performance, but when network congestion degree is high, live-vertex is many in the network, a large amount of wireless network nodes are after successfully sending out Frame, the contention window value of node becomes minimum value, and then each node sends the collision probability increase of Frame, and then contention window value is selected in collision again.And contention window value is selected in collision again, can cause how insignificant collision, makes network throughput descend rapidly, and whole network performance worsens, and the WLAN (wireless local area network) that is not suitable for high load capacity is used.

Back-off method DCC based on distributed contention control mechanism, propose by people such as Luciano professors Bononi, its core concept is a mechanism of having introduced " virtual collision ", when sending Frame at every turn, utilize the backoff procedure before Frame in the high load capacity network sends to write down the current congestion situation of network, decide after keeping out of the way end, whether to send this Frame according to the Congestion Level SPCC of network.Though this method has overcome original BEB method still sends Frame blindly when network is busy shortcoming, make network can not enter the state that continues deterioration.But the DCC method does not still solve the original drawback of BEB method, oneself competition window blindly is kept to minimum value after promptly at every turn sending successfully, and reasonably choosing competition window according to the current congestion condition of network.Therefore be operated in higher load condition following time when network, each Frame successfully sends all needs experience repeatedly to keep out of the way, and causes time delay increase and throughput performance decrease always.

Based on the back-off method SD_DCF of " keeping out of the way slowly " mechanism, be propositions such as strong professor Buddhist nun the earliest by IEEE 802.11 working groups.Chinese patent: (number of patent application 200410026210.4) discloses a kind of back-off method that adopts based on " keeping out of the way slowly " mechanism and the combination of DCC method, this method is mainly used in the problem that solution is repeatedly collided when a plurality of competition nodes are competed single Traffic Channel in the high load capacity environment when network work, its core concept is after each Frame sends successfully, contention window value is not changed to minimum value, but it is decreased to the corresponding multiple of current competition window, thereby reduce the collision of Frame.This method is fit to high load condition.But this method according to network environment planning and Congestion Level SPCC, does not just simply reduce contention window value, and it is more inhomogeneous that it can make time slot select, and might cause extra more collision; It can not guarantee the successful access of present frame, and on the contrary, wait is blindly kept out of the way and finished the back and be about to Frame and mail to the further deterioration that wireless channel might cause the wireless communication environment.

Summary of the invention

Technical problem to be solved by this invention is: at avoiding the above-mentioned defective that exists in the CSMA/CA avoidance mechanism based on the carrier sense conflict in the prior art, design a kind of dynamic back-off method P_PBA (P-Persistent Backoff Algorithm) of the WLAN (wireless local area network) distributed contention control based on probability P, to solve in the high load capacity network, the high collision probability that existing back-off method does not have real-time dynamically recording network congestion degree to be caused, WLAN time delay under higher load condition increases and the problem of throughput decreased performance.

The technical scheme that the present invention solves the problems of the technologies described above is: carry out the basic thought of keeping out of the way based on node, calculate the congestion degree possibility P that the node contention window value is set according to the network slot utilance; Processor controls is made as minimum value according to probability P with the node contention window value, perhaps the probability with (1-P) keeps contention window value constant, and select the value of backoff counter at random according to competition window, and sending the timeslot number of keeping out of the way of Frame once more to determine node, its concrete steps are as follows:

The node of data to be sent is according to current competition window, after determining the value of backoff counter, from this time slot, carry out backoff procedure, if this time slot channel idle, the value of backoff counter subtracts 1, as channel busy, backoff counter is freezed, and freezes counter and adds 1 to calculate the frozen number of times of backoff counter; According to the frozen number of times of backoff counter, estimate the timeslot number of channel busy; The Node Controller algoritic module calls formula according to the timeslot number Num_Busy_Times of channel busy and total timeslot number Num_Available_slots of backoff procedure process:

S_U = \frac{Num_Busy_Times}{Num_Available_slots}

Calculate slot efficiency S_U; By slot efficiency according to formula: P=1-S_U determines congestion degree possibility P, and P can reflect the Congestion Level SPCC of network, and when promptly the P value was big, network congestion degree was little, and when the P value diminishes gradually, it is big that network congestion degree becomes gradually; The comparative result of the random number that the contact processor controls produces according to congestion degree possibility P value and node is provided with the contention window value of node, with the collision of this Control Network Frame.

Wherein, the frozen number of times of node backoff counter can be used as the estimation to channel busy, and total timeslot number of backoff procedure process comprises the timeslot number of idle timeslot number and channel busy.After sending Frame, if the node random number is less than probability P, then node control processor contention window value is set to minimum value, if random number is greater than probability P, contention window value remains unchanged, if channel is when bumping, node is double up to reaching maximum with contention window value, and determines the value of backoff counter according to current competition window.

The value that generates random number according to probability P value and node is provided with the contention window value of node, sends data success back at node at every turn and judges whether competition window is become minimum value with probability P, thereby avoided unnecessary collision effectively; When channel bumped, double contention window value was up to reaching maximum, and selected the value of backoff counter to keep out of the way according to contention window value, with the collision of this Control Network Frame.

The WLAN (wireless local area network) distributed contention based on congestion degree possibility P that the present invention proposes, real-time dynamically control back-off method can satisfy the requirement of existing IEEE 802.11 standard agreements, need not any extra hardware spending and frame structure and change; The present invention passes through based on the congestion probability degree, the value of the competition window of dynamic Control Node, solved the problem that standard agreement does not write down network congestion degree, effectively reduce collision probability, can guarantee that node still can obtain better delay performance and low packet loss ratio in the high load capacity network environment.

Description of drawings

Figure 1 shows that based on the principle schematic in node avoidance mechanism embedding IEEE 802.11 standard agreements of probability.

Figure 2 shows that realization flow figure of the present invention.

Figure 3 shows that wireless local area network (WLAN) system network throughput comparison diagram.

Figure 4 shows that wireless local area system access delay comparison diagram.

Embodiment

The present invention is implemented in IEEE 802.11 standard agreements node avoidance mechanism that embeds based on probability, proposes a kind ofly based on follow-on IEEE 802.11 agreements of P_PBA, finishes the control of the reciprocity Frame access channel to be sent of node by this improved agreement.Below in conjunction with the drawings and specific embodiments enforcement of the present invention is described in further detail.

Be illustrated in figure 1 as the principle schematic that will embed based on the node avoidance mechanism of probability in IEEE 802.11 standard agreements.Various portable terminals in the WLAN (wireless local area network), as network node, node sends data according to IEEE 802.11 standards as mobile phone, laptop computer etc.The present invention will dynamically adjust the contention window value of node, and by slot efficiency, congestion degree possibility P is determined contention window value, come the Control Node data to send.After Frame successfully transmitted, establishing contention window value with probability P was initial value, and according to the value of contention window value by even distribution principle picked at random backoff counter.

If node has Frame to send, initialization node register and backoff counter, and be provided with that to freeze Counter Value be 0, according to minimum contention window value, produce the value of backoff counter at random by even distribution principle, carry out the binary exponential backoff process, if this time slot channel idle, the value of backoff counter subtracts 1, as channel busy, backoff counter is freezed, and freezes counter and adds 1.Backoff procedure sends Frame after finishing immediately; According to the frozen number of times of backoff counter, determine the timeslot number of channel busy; Algoritic module calculates slot efficiency S_U according to the timeslot number of channel busy and total timeslot number of backoff procedure process; Determine congestion degree possibility P by slot efficiency, the equally distributed random number between node produces 0 to 1, comparison module compares this random number and probability P; If random number is less than probability P, the current contention window value that processor controls is provided with node is a minimum value, otherwise then the contention window value of node remains unchanged; When channel bumps, if Frame sends failure, the Node Controller algoritic module is doubly taken advantage of contention window value, make contention window value double automatically, until the maximum that reaches the physical layer parameter regulation, it as maximum contention window value, is selected the value of backoff counter according to contention window value.

Be illustrated in figure 2 as specific implementation process flow diagram of the present invention.

1, at first each register sum counter is carried out initialization and renewal, detect wireless channel,, each counter currency is set according to channel status.

Initialization node register, backoff counter, freeze counter; The Counter Value that freezes that the put backoff counter is in frozen state numerical value is 0.Specifically comprise the steps, initialization enters idle condition, whether detection module detects has Frame to send, if any, whether idle, if idle if detecting the current time slots channel, Frame is sent to shared channel, otherwise as the value of backoff counter, and to make the parameter congestion degree possibility P of node contention window value be 1 according to the value in minimum competition window value of IEEE 802.11 standard protocol specifies, and the value of freezing backoff counter simultaneously is zero.Detect channel, carry out backoff procedure, if the current time slots channel is not idle, backoff counter is freezed, and freezes counter and adds 1; If the current time slots channel idle, the value of backoff counter subtracts 1, and judge module judges whether the value of its node register is 0, as is 0 Frame to be sent to shared channel, and above-mentioned repeatedly testing process becomes 0 up to the backoff counter value.

2, node is carried out carrier sense mechanism, and the estimation network congestion state is according to total timeslot number calculating slot efficiency of frozen number of times of backoff counter and backoff procedure process.

Node is carried out carrier sense mechanism, obtains the information of network state in real time.Each node is carried out back-off method before sending Frame, and detection channel status, gathering and writing down the frozen number of times of this node backoff counter is Num_Busy_Times, total timeslot number Num_Available_slots of acquisition and recording backoff procedure process, the time slot that promptly comprises idle time slot and channel busy, comprise the time slot that other nodes successfully transmit and collide, thus, the Node Controller algoritic module calls formula:

S_U = \frac{Num_Busy_Times}{Num_Available_slots},

Calculate slot efficiency S_U, promptly the time slot utilance is the ratio of total time slot of frozen number of times of backoff counter and backoff procedure process.

3, carry out competition control backoff procedure, determine congestion degree possibility P, contention window value is set according to the value of probability P value and node random number by slot efficiency.The Frame of node sends successfully the back according to the probability P value, judge whether that contention window value is set to minimum value, thereby avoid unnecessary collision, if when sending Frame and bumping, then with double contention window value up to reaching maximum.

The Node Controller algoritic module calls formula P=1-S_U calculating probability P according to slot efficiency, after node sends the Frame success, node is by the random number random (0 evenly distribution produces 0 to 1 by random function, 1), judging treatmenting module is judged random number, (be Random (0,1)＜P), then node control processor contention window value is set to the minimum value of standard protocol specifies less than probability P as if random number; If random number is greater than probability P, the contention window value of node remains unchanged, and like this, the probability that the contention window value of node is set to minimum value is P, and keeping the constant probability of competition window is (1-P).

In the wireless medium of sharing, there are two or more terminals to send Frame simultaneously, when Frame bumps, judging treatmenting module judgment data frame sends whether reach maximum retransmission, if reach, the feedback upper layer data transmits failure, and abandon this Frame, otherwise processor controls is carried out processing and amplifying to the value of competition window, and its value is double, the value of retransmission counter adds 1, judging treatmenting module judges whether the value of current competition window reaches maximum (if current contention window value greater than maximum contention window, is then got current contention window value as maximum contention window value), according to the value of the competition window that upgrades, select the value of backoff counter.The contention window value of node is set according to the value of probability P value and node random number, after sending success at every turn, node will judge whether competition window becomes minimum value according to probability P, thereby avoided unnecessary collision, when channel bumps, with double contention window value up to reaching maximum, and select the value of backoff counter according to contention window value, with the collision of these Control Network data.

When finishing above-mentioned processing procedure, Frame sends and finishes, and is ready for sending next Frame.

After node sends the Frame success, contention window value is become minimum value based on the control method of P_PBA, otherwise keep competition window constant with probability 1-P by certain probability P.

Because node is carried out carrier sense mechanism among the IEEE 802.11, so slot efficiency is easy to obtain, and need not the requirement on any other hardware, also do not bring other expenses.When offered load was light, slot efficiency was little, and slot efficiency is one [0,1] number between along with the increase of slot efficiency, just means that the probability that Frame bumps is just big more, therefore, the present invention is according to the probability Congestion Level SPCC of mapping network in real time.The P_PBA method is by carrying out carrier sense mechanism, make each node independently obtain probability P, node is a minimum value according to the value that probability P is provided with competition window, promptly will judge whether competition window is minimum value with probability P at every turn after node sends success, thereby avoid unnecessary collision.According to Congestion Level SPCC, by the value of the contention window value picked at random backoff counter that is provided with.

If live-vertex is less in the network, then slot efficiency is lower, and the probability P value will be than higher, and after node successfully sent Frame, competition window can become initial value with high probability, reduces the idle time slot that produces.If live-vertex is many in the network, slot efficiency can be very high, and the probability P value is very little, and after node sent successfully, contention window value can remain unchanged with high probability.The P_PBA method that the present invention adopts is utilized carrier sense mechanism, state (busy or idle) by record backoff procedure time slot, calculating probability P, can be in real time according to current network state, the dynamic back-off method of optimizing, the utilance of raising wireless channel has reduced the possibility that bumps, the throughput of raising system obtains network performance preferably.The Channel Sharing that this method can obtain has avoided time slot to select the inhomogeneities of probability preferably, reduces consequent collision.And the P_PBA method can be passed through parameter P, supports priority service or QoS Differentiated Services.

In order to check IEEE 802.11 standard agreements to use the performance of various back-off methods, the inventive method and IEEE 802.11 standard back-off methods, single order SD method are carried out emulation relatively, we are at 100x100m ²The zone in place 64 nodes, each node communication radius 300m, the node per second produces 20 of packet average out to, the Frame that to choose two kinds of mean sizes be 128byte and 1024byte, the professional and long frame business of the short frame of representative is carried out time delay respectively.8 live-vertexs are arranged when beginning, increased by 8 live-vertexs, and no longer increased new live-vertex after 350 seconds in per 50 seconds.This process increases by live-vertex in the network, and network congestion degree continues to increase, and investigates the performance of each method, and simulation parameter is as shown in table 1.

Table 1IEEE 802.11 simulation parameter tables

Data rate (Mbps)	Physical layer characteristic	Short frame allows number of retransmissions	Long frame allows number of retransmissions	Buffering area (bit)	Slot length (us)	SIFS duration (us)	Minimum competition window (timeslot number)	Maximum contention window (timeslot number)	Network size
Data rate (Mbps)	Physical layer characteristic	Short frame allows number of retransmissions	Long frame allows number of retransmissions	Buffering area (bit)	Slot length (us)	SIFS duration (us)	Minimum competition window (timeslot number)	Maximum contention window (timeslot number)	Network size	11	The straight expansion	7	4	256000	20	10	31	1023	100x100

We choose the access delay of network, and the throughput performance index compares.

Under identical node number and Frame business, the throughput of P_PBA method of the present invention all is better than SD method and 802.11 method methods, and is main because of the slot efficiency of P_PBA method according to node, writes down the Congestion Level SPCC of meshed network accurately.Node is determined the size of competition window by probability P, and send action the next time of plan node, has reduced the probability of collision, has improved the throughput of network.

Figure 3 shows that wireless local area network (WLAN) system network throughput comparison diagram (frame length is 1024byte).

Shown when live-vertex is incremented to 64 by 8 that 802.11 standard back-off methods, single order SD method and P_PBA method are for the throughput ratio of long data frame business network.Abscissa is simulation time (unit second) among the figure, and ordinate is wireless local area network (WLAN) system throughput (unit is a bits per second).

Node is (when being less than 32) more after a little while, the throughput basically identical of three kinds of methods.Surpass 32 and work as the node number, the throughput of three kinds of methods begins to descend.802.11 the standard back-off method sharply descends, secondly, and the SD_DCF method, and the throughput performance of P_PBA method of the present invention all is higher than other two kinds of methods.This simulation curve shows that the throughput performance of the inventive method all is better than other two kinds of methods under different network sizes.We as can be seen, 802.11 standard back-off methods are along with node increases, throughput is also in continuous increase, after acquiring a certain degree, beginning sharply descends, and this is because increasing along with live-vertex, collision probability increases, and causes number of retransmissions to increase, and causes network performance to worsen.

When network congestion degree was light, it was many to keep out of the way idle time slot, and slot efficiency is low, and the competition window of node can become minimum value with big probability after sending successfully, had reduced the idle time slot of keeping out of the way.Along with increasing of live-vertex, the Congestion Level SPCC of network raises, and it is big that slot efficiency becomes, and the contention window value of node remains unchanged with big probability, has reduced the probability of collision.When standard agreement performance rapid deterioration, the P_PBA method has kept good throughput, and under equal conditions, throughput also is better than the SD method.

Figure 4 shows that wireless local area network (WLAN) system access delay comparison diagram (frame length is 1024byte).Shown among the figure when live-vertex is incremented to 64 by 8 that 802.11 standard back-off methods, single order SD method and P_PBA method compare for the access delay of long data frame network.Abscissa is simulation time (unit second) among the figure, and ordinate is wireless local area network (WLAN) system access delay (unit is second).

The wireless local area network (WLAN) system access delay is compared with above-mentioned throughput of system relatively, along with the increase of number of network node, the time delay of the whole bag of tricks is all increasing, and the time delay of P_PBA method of the present invention increases minimum, the SD_DCF method is taken second place, and 802.11 standard back-off method increases are the fastest.

Claims

1. the WLAN (wireless local area network) distributed contention control back-off method P_PBA based on congestion degree possibility P is characterized in that this method may further comprise the steps, and according to the present node contention window value, determines the value of backoff counter; Detect channel status, carry out backoff procedure, calculate the frozen number of times of backoff counter; Estimate the timeslot number of channel busy according to the frozen number of times of backoff counter; Algoritic module calculates slot efficiency S_U according to the timeslot number Num_Busy_Times of channel busy and total timeslot number Num_Available_slots of backoff procedure process; By slot efficiency according to formula: P=1-S_U determines congestion degree possibility P; The node control processor is provided with the node contention window value according to the comparative result of the node random number of congestion degree possibility P value and node generation, with the collision of these Control Network data.

2. method according to claim 1 is characterized in that the execution of described backoff procedure specifically comprises, if detect the time slot channel idle, the value of backoff counter subtracts 1, if it is not idle to detect the time slot channel, backoff counter is freezed, and freeze counter and add 1, be 0 up to the value of backoff counter.

3. method according to claim 1 is characterized in that algoritic module calls formula:

P = 1 - S_U = 1 - \frac{Num_Busy_Times}{Num_Available_slots},

Calculate congestion degree possibility P.

4. method according to claim 1 is characterized in that, the node random number be node by even distribution by random function produce 0 to 1 random number.

5. method according to claim 1 is characterized in that, the step that the contention window value of node is set comprises that specifically after node successfully sent Frame, less than probability P, then node control processor contention window value was set to minimum value as if the node random number; If the node random number is greater than probability P, contention window value remains unchanged; When node sent Frame generation collision, contention window value was double up to the maximum contention window value that reaches the physical layer parameter regulation.

6. method according to claim 1 is characterized in that total timeslot number of backoff procedure process comprises the timeslot number of idle timeslot number and channel busy.

7. method according to claim 5, it is characterized in that: the probability that contention window value is set to minimum value is P, keeping the constant probability of competition window is (1-P), if current contention window value greater than maximum contention window value, is then got current contention window value as maximum contention window value.